p2 X p2 = p4
or p X p X p X p = p4
P squared = P*P. When divided by P, the equation becomes (P*P/P, and the answer is "P".
-2p squared
The answer depends on whether or not the 8 is part of the squared: (8x) squared times 2x = 128x38 x2 times 2x = 16x3
We know that when you submit questions you aren't free to use the right format to make the mathematical terms crystal clear. It is likely that you mean "x squared times 6 plus x squared times 2", which is clearer. You can factor out the "x squared" and you will see that you get "x squared times 8". You COULD mean (6x) squared plus (2x) squared, which would be different. 6x times 6x would equal x squared times 36, so your answer will be much different.
p2 + p2 + p3 = 2p2 + p3 because you can add the two variables that match, while you leave the different variable alone.
P cubed
(6p)^2=36p^2
P^2 + p^2 cannot be simplified.
P squared = P*P. When divided by P, the equation becomes (P*P/P, and the answer is "P".
2 x 3 x 3 x p x p = 18p^2
p^2 x p^2 = p^4 p^2 + p^2 = 2p^2
-2p squared
p^2(p squared)
36 squared times 24 squared is equal to 746,496.
P = I2R (power = current squared times resistance). Therefore, if the current doubles, the amount of dissipated electrical energy will increase by a factor of 4.P = I2R (power = current squared times resistance). Therefore, if the current doubles, the amount of dissipated electrical energy will increase by a factor of 4.P = I2R (power = current squared times resistance). Therefore, if the current doubles, the amount of dissipated electrical energy will increase by a factor of 4.P = I2R (power = current squared times resistance). Therefore, if the current doubles, the amount of dissipated electrical energy will increase by a factor of 4.
p2-2p = p(p-2) when factored
s = p^2 - 5 *also, p = sqrt (s+5)